Shadow wrote:drivesafe wrote:Shadow wrote:so you can put a flooded wet cell battery in the cabin of a vehicle?
Hi Shadow, yes mate you can fit flooded wet cell ( FWC ) batteries inside the cab of ANY vehicle.
The only requirement is to make the battery spill proof by fitting it in a plastic battery box.
NOTE, no matter what type of battery you fit inside the cab, it should be in a plastic battery box.
If you manage to over charge a FWC battery, you may get a bit of spill from electrolyte spitting out of the caps, but if you over charge a sealed battery it WILL force electrolyte gel from the battery and because of the lower maximum charge voltages that sealed batteries must be keep under, you are more likely to over charge a seal battery than you are a FWC battery.
So again, any type of battery fitted inside a cab must be in a plastic battery box.
I spoke to the guys at several battery places today and all 3 of them said that having a FWC battery in cabin is not a good idea(although they didn't go so far as to say its illegal or anything), as they have the ability to vent noxious gasses into the cabin during charging, or in fault situations.
Commodores etc that have FWC batteries in the cabin also have vent pipe which plumb's the batteries vent's to the exterior of the car. Would this not be required?
I ended up buying a 120AH Fullriver AGM for the back of my 100series, and a 105AH Supercharge FWC Deep cycle for the engine bay of my brothers ute. But the AGM was nearly $100 dearer so I would be a little disappointed if the "noxious Gasses" thing was just an urban myth?
Main issue is the Hydrogen produced under charging (explosive, but not necessarily noxious per se), all cells do this.
Gel cells try to limit this problem by retaining the pressure within the cell (this being one reason why you can't rapid charge them), as well as only having a gel (literally the consistancy of a home made yummy jelly) substance between plates meaning warpage of the plates can cause them to contact through excess heating while charging/discharging.
AGM's have a "starved electolyte" wetting a glass mat and limit the amount of H2 produced by not having too much H2SO4 acid in the cell in the first place. They also have a solid glass mat between plates and are generally packed pretty tight so thermal issues are better dissipated under heavy charge/discharge. This is also the reason they can deal with more current when charging/discharging.
Wet cells have a heap of acid around the plates, and the plates are usually not that well mechanically restrained meaning heavy charge/discharge can also warp plates. The distance between the plates is usually greater than in the gel cells so they are not as susceptible to shorting cells though. The amount of acid in the cells and the open venting makes adequate air circulation around the batteries (as suggested above) a must. Personally I don't like the idea of sitting next to 3 litres of hot acid in the event of an accident....
Gel cells and AGM's do have a pressure relieving valve in them but under normal usage it would not be active.
BIGGEST must-have is an appropriate sized fuse or circuit breaker within 200mm of the battery terminals if the battery is inside.
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